研究目的
To evaluate the potential for SSTDR to locate and measure the magnitude of a fault on a PV panel by analyzing the SSTDR signature for complex load impedances, including capacitors, inductors, and PV panels.
研究成果
The paper demonstrates that SSTDR has the potential to locate and measure the magnitude of complex load impedances, including PV panels, by analyzing the SSTDR signature. This analysis provides a basis for future algorithm development to locate and measure complex load impedances and correlate them to PV faults.
研究不足
The study identifies that for very large or very small values of capacitors and inductors, the complex load looks like a short or open circuit and cannot be uniquely defined, making it difficult to create a system for testing these faults.
1:Experimental Design and Method Selection:
The study utilizes SSTDR to analyze the response to complex impedances. The methodology involves launching an SSTDR incident test signal down a transmission line to interact with impedance discontinuities.
2:Sample Selection and Data Sources:
The experiment uses different load impedances (capacitors, inductors, and PV panels) connected to PV cables.
3:List of Experimental Equipment and Materials:
Includes the WILMA W50A000F SSTDR device, 10 AWG PV cables, MC-4 connectors, and various capacitors and inductors.
4:Experimental Procedures and Operational Workflow:
The SSTDR signal is launched down the transmission line, and the reflected signal is cross-correlated with a delayed version of the incident signal. The resultant correlated waveform is analyzed to identify impedance discontinuities.
5:Data Analysis Methods:
The analysis involves calculating reflection coefficients and comparing simulated and measured SSTDR responses.
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